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    • 1. 发明授权
    • Holographic fingerprint device
    • 全息指纹设备
    • US6061463A
    • 2000-05-09
    • US696954
    • 1997-12-22
    • Michael MetzNicholas J PhillipsZane ColemanCarl Flatow
    • Michael MetzNicholas J PhillipsZane ColemanCarl Flatow
    • G06K9/00
    • G06K9/00046
    • A method and ultra-compact system has been developed for illuminating and detecting the surface topography of an object such as the finger (4) of an individual. The system (8) is capable of producing high-contrast images which can be electronically transmitted in real-time, or stored using electronic or photographic recording devices. Light traveling within a light transmitting substrate (2) is redirected by a slanted-fringed light diffractive grating preferably embodied within a volume hologram (3). The volume hologram (3), either of the reflection or transmission type, is attached to the light transmitting substrate (2). and functions to diffract light striking thereupon and illuminate an object having topographical surface structure. After being spatially and intensity modulated in accordance with topographical details of the illuminated object, the insulated light passes back through the light transmitting substrate (2) and the volume hologram (3), onto an image detection array. for subsequent analysis. Each of the disclosed embodiments has a compact geometry suitable for use in diverse object identification applications.
    • PCT No.PCT / US95 / 02155 Sec。 371 1997年12月22日第 102(e)日期1997年12月22日PCT 1995年2月21日提交PCT公布。 公开号WO95 / 22804 日期1995年8月24日已经开发了一种用于照明和检测诸如个人手指(4)的物体的表面形貌的方法和超紧凑系统。 系统(8)能够产生可以实时电子传输或使用电子或照相记录装置存储的高对比度图像。 在透光基板(2)内行进的光通过优选体现在体积全息图(3)内的倾斜光衍射光栅来重定向。 反射或透射型的体积全息图(3)附着到透光基板(2)上。 并且用于衍射入射的光并照射具有形貌表面结构的物体。 在根据照明物体的形貌细节进行空间和强度调制后,绝缘光通过透光基板(2)和体积全息图(3)返回到图像检测阵列上。 供后续分析。 所公开的实施例中的每一个具有适合用于不同对象识别应用的紧凑几何形状。
    • 2. 发明授权
    • Grazing incidence holograms and system and method for producing the same
    • 掠射入射全息图及其制造方法
    • US5822089A
    • 1998-10-13
    • US594715
    • 1996-01-31
    • Nicholas J. PhillipsZane Coleman
    • Nicholas J. PhillipsZane Coleman
    • F21V8/00G03H1/04G03H1/02
    • G03H1/0408G03H2001/0473G03H2222/47Y10S359/90
    • A method and system for recording and displaying grazing-incidence (i.e., steep reference beam angle) holograms supported on a substrate having thin edge-illuminatable geometry. The system and process of the present invention uses thin edge-illuminated substrates that facilitate optimal coupling of the reference light beam at steep angles approaching grazing incidence, while maximizing the contrast of the slanted fringe structures thereof. A recording medium is in direct contact with a thin substrate whose refractive index is greater than the bulk refractive index of the recording medium. At the substrate interface, the recording medium has a gradient-type index matching region, created by exposure of the recording medium to reference beam illumination, prior to the further application of an object beam to create a fringe pattern.
    • 用于记录和显示支撑在具有薄边缘可照射几何形状的基板上的掠入射(即,陡峭的参考光束角)全息图的方法和系统。 本发明的系统和方法使用薄边缘照射基板,其促进参考光束在接近掠入射的陡角处的最佳耦合,同时最大化其倾斜边缘结构的对比度。 记录介质与折射率大于记录介质的体积折射率的薄基板直接接触。 在基板界面处,在进一步施加物体光束以产生条纹图案之前,记录介质具有通过将记录介质暴露于参考光束照明而产生的梯度型折射率匹配区域。
    • 5. 发明授权
    • Device for forming and detecting fingerprint images with valley and
ridge structure
    • 用于形成和检测具有谷脊结构的指纹图像的装置
    • US5974162A
    • 1999-10-26
    • US394470
    • 1995-02-27
    • Michael MetzCarl FlatowNicholas J. PhillipsZane Coleman
    • Michael MetzCarl FlatowNicholas J. PhillipsZane Coleman
    • G01B11/24A61B5/117G06K7/10G06K9/00G06T1/00G06T7/00G07C9/00
    • G06K9/00046A61B5/1172G06K7/10663G06K7/10702G06K7/1098G07C9/00158
    • A method and ultra-compact system has been developed for illuminating and detecting the surface topography of an object such as the finger of an individual. The system is capable of producing high-contrast images which can be electronically transmitted in real-time, or stored using electronic or photographic recording devices. Light traveling within a light transmitting substrate is redirected by a slanted-fringe light diffractive grating preferably embodied within a volume hologram. The volume hologram, either of the reflection or transmission type, is attached to the light transmitting substrate, and functions to diffract light striking thereupon and illuminate an object having topographical surface structure. After being spatially and intensity modulated in accordance with topographical details of the illuminated object, the modulated light passes back through the light transmitting substrate and the volume hologram, onto an image detection array, for subsequent analysis. Each of the disclosed embodiments has a compact geometry suitable for use in diverse object identification applications.
    • 已经开发了一种用于照明和检测诸如个人手指的物体的表面形貌的方法和超紧凑系统。 该系统能够产生可以实时电子传输或使用电子或照相记录设备存储的高对比度图像。 在透光性基板内行进的光被优选体现在体积全息图内的倾斜光束衍射光栅重新定向。 反射或透射型的体积全息图被附着到透光基板上,并且用于衍射入射到其上的光并照亮具有地形表面结构的物体。 在根据照明物体的形貌细节进行空间和强度调制之后,调制光通过透光基板和体积全息图返回到图像检测阵列上,用于随后的分析。 所公开的实施例中的每一个具有适合用于不同对象识别应用的紧凑几何形状。
    • 8. 发明授权
    • Versatile remote control device and system
    • 多功能遥控设备和系统
    • US08958698B2
    • 2015-02-17
    • US13561320
    • 2012-07-30
    • Michael MeyerZane Coleman
    • Michael MeyerZane Coleman
    • H04B10/00H04N21/422G08C17/02G08C23/04
    • H04N21/42226G08C17/02G08C23/04H04N21/42206
    • A radio-frequency (RF) remote control (10) has a user interface and transmits an RF signal (11) which designates a device (14) to be controlled and a command for that device. The RF signal is received by an intermediary device (12). The intermediary device, in turn, generates and broadcasts a plurality of high-power IR signals (13A-13F). These signals may be received directly by a controlled device (14A) or may be received indirectly by a controlled device (14B, 14C) after one or more reflections from objects (16A, 16B) and/or room surfaces (18). Thus, reliable control of the devices (14) is obtained even in situations where merely transmitting a typical IR signal may not provide reliable control of the device (14).
    • 射频(RF)遥控器(10)具有用户接口,并发送指定要控制的设备(14)的RF信号(11)和用于该设备的命令。 RF信号由中间设备(12)接收。 中继装置又产生并广播多个高功率红外信号(13A-13F)。 这些信号可以由受控设备(14A)直接接收,或者可以在来自对象(16A,16B)和/或室内表面(18)的一次或多次反射之后由受控设备(14B,14C)间接接收。 因此,即使在仅发送典型的IR信号的情况下也可以不对设备(14)提供可靠的控制,因此可以获得对设备(14)的可靠控制。
    • 9. 发明授权
    • Method of manufacturing a light input coupler and lightguide
    • 制造光输入耦合器和光导的方法
    • US08917962B1
    • 2014-12-23
    • US12822937
    • 2010-06-24
    • Anthony John NicholZane Coleman
    • Anthony John NicholZane Coleman
    • G02B6/26
    • G02B6/0028G02B6/0068G02B6/0076G02B6/0078
    • In embodiments of this invention, light emitting devices comprise film-based lightguides comprising at least one light input coupler and an array of coupling lightguides that are folded or bent and disposed substantially above one another. The edges of the coupling lightguides may form part of a light input surface. The light emitting device may comprise more than one light input coupler and the film may be less than 500 microns in thickness. In embodiments of this invention, methods of manufacturing lightguides and light input couplers comprise steps that translate linear fold regions of the coupling lightguides relative to each other such that the coupling lightguides are bent or folded above each other. In other embodiments of this invention, an electroluminescent sign, light fixture, frontlight for a reflective display, or a backlight for a transmissive display comprises a lightguide and light input coupler comprising coupling lightguides.
    • 在本发明的实施例中,发光器件包括基于膜的光导,其包括至少一个光输入耦合器和耦合光导阵列,其被折叠或弯曲并基本上彼此设置。 耦合光导的边缘可以形成光输入表面的一部分。 发光器件可以包括多于一个光输入耦合器,并且该膜可以小于500微米厚。 在本发明的实施例中,制造光导和光输入耦合器的方法包括将耦合光导的线性折叠区域相对于彼此平移的步骤,使得耦合光导相互弯曲或折叠。 在本发明的其他实施例中,用于反射显示器的电致发光符号,灯具,前照灯或用于透射显示器的背光源包括包括耦合光导的光导和光输入耦合器。